M440868 五、新型說明: v 【新型所屬之技術領域】 „ 本創作涉及一種斜斷鋸。 【先前技術】 傳統的斜斷作為—種切#江具,具有很廣的應用細,可以用於切 陳多金屬或非金屬材料,切割快捷方便。斜斷錄-般包括基座、旋轉設 ♦於基座上的工作臺、旋轉位於工作臺上方的具有電機和銀片的鑛機構、及 設置在工作臺上用於給工件定位的護攔,其中鑛機構圍繞與工作臺相對固 疋的拖轉軸可旋轉地與卫作臺配接,從*來⑽江件。但是傳統的斜斷 錄中樞轉轴與_之間的距離保持惶定,這樣,就限制了其切割能力, 也就是說,其容許域•件規格關在-定細内,使其不能切割更多 規格的工件,從❿使得觸斜麟㈣足操作者的需求。 • 【新型内容】 本虐丨作要解決的技術問題:提供一種操作方便,且具有較高切割能力 的斜斷鋸。 本創作解決上述技術問題所採用的技術方案:一種斜斷鋸,包括:用 Λ 於支樓被切割工件的工作臺’該工作臺設有沿縱長延伸的切割槽;與該工 ·· 作臺配接的第—續件;與該第-讀件第二支料;與該第二支 樓件框轉連接的銀機構,該鑛機構包括蘇片和驅動該蘇片旋轉的電機,該 锯片至少部分伸入該切割槽,該斜斷鋸還包括可操作地驅動該第二支撐件 料40868 對於第-支撐件沿該蝴槽的延伸方向移動的鶴機構該驅動機構包 心動配接於該第—支撐件和帛二支撲件上的主驅動件。 與現有技術相比,本創作的有益效果:操作主驅動件使第二支標件相 斜於第-支餅魏’操作方便的同時,提高了斜喃切割能力。 較佳地,該主驅鱗_連接於該第—支撐件料二支料其中之一 上’且該主驅動件活動連接職第—支#件和第二支料其巾另一個上。 較佳地’該驅動機構還包括樞轉連接於該第一支標件和第二支樓件上 的從動件’且齡驅動件樞誕接於該第—支料和第二支料其中另一 個上〇 較佳地,該主驅動件設置於該從動件和該鋸片之間。 較佳地,該第二支撐件具有位於該鑛片相對兩側的第一側部和第二側 遠從動件設於該第一側部和第二側部之間。 較佳地,該驅動機構還包括姉連接於該第—支料和第二支撐件上 的第-連杆,且該第-連杆無主驅動件分別設置於該第—側部和第二側 部兩個相背離的側面上。 較佳地’該第-連杆與主驅動件同軸樞轉連接於該第一支料上,且 該第-連杆與錄動件__連接_第二支撐件上^ 較佳地,該驅動機構還包括與該第一連杆對稱設置的第二連杆。 較佳地’該從動件與該则所在的平面相交。 較佳地,該驅動機構還包括從動件,該主驅動件樞轉設置於該第一支 樓件和第二支撐件之-上,該從動件樞轉連接於該第—支料和第二支撐 件另-個上,且該從動件活動連接於該主驅動件。 M440868 較佳地,練械_包括轉連接於雜—讀件上㈣—連接件 和框轉連接_第二狀件上的苐二連接件,該第—連餅鮮二連接件 f連接,且縣—連接件和該第二連接倾該主驅動件和該從動件分別 SX置於該第二支律件的兩個相背離的側面上。 較佳地,該第-連接件與該主驅動件同軸柩轉連接於該第一支撐件 r- 〇 較佳地,該第二連接件與該從麟__連接_第二支標件上。 較佳地’該第二支撐件通過配合機構設置於該第—支擇件上。 較佳地’該配合機構包括設置在該第—支料和第二切件之—上的 導引槽,以及設綱第-支料和第二瓣另—個上的與剩槽配 合的導引塊。 較佳地,該第二讀件相對於第—支斜僅在至少兩個職工作位置 進行切割雜_砸包__供料二讀件钱敎工作位 置鎖緊的支撐件鎖緊機構。 較佳地,該支掠件姆機構包括設置於該第一支撐件或者該第二支禮 件上的配合件、及設置於該主驅動件上且與該配合件配合的鎖緊件。 較佳地,該配合件為至少兩個間隔設置的凹槽。 較佳地’壯鶴件通過__連接於該第—切件或者該第二支 撐件上,該凹槽圍繞該銷軸周向間隔設置。 較佳地,該主驅動件上沿該主驅動件的縱長延伸方向延伸設置有與該 鎖緊件配接的長扎。 較佳地,該鎖緊件上設置有供操作者操作的操作把手。 5 M440868 較佳地,該支撐件鎖緊機構還包括促使該鎖緊件始終與該配合件保持 配合的彈性件。 較佳地,該彈性件為壓簧。 較佳地,該支撐件鎖緊機構還包括固定設置於該主驅動件上的蓋體, 該彈性件設置於該鎖緊件與該蓋體之間。 較佳地,該操作把手上設置有用於收容該彈性件的收容腔,該彈性件 位於該蓋體與該操作把手之間。 較佳地’該預先確定的不同工作位置與可容許的最大切割工件規格相 對應。 較佳地,該可容許的最大切割工件規格包括可容許的工件在平行於縱 軸方向上的最大尺寸。 較佳地,該可容許的最大切割工件規格包括可容許的工件在垂直於縱 轴方向上的最大尺寸。 本創作還需解決的技_題H種具有可靠敎的斜_緊機構 的斜斷鋸。 本創作解決上述技術問題所採用的技術方案:—種斜_包括:基 座;工作臺,與該基錢轉雜,且該工作臺設置有職延伸的切割槽Y 斜切鎖緊機構,設於該基減紅作臺之間,驗將工作臺姆於基顧 放或鎖緊4帽斜_»構包括帛於觀或齡基座叫具和用於招 作該夾具的致動機構’該央具配接於該工作臺上且包括第—夹爪和第二成 爪,該第—夾爪上設有第,面,該第二夾爪上設有與該第—夾持面相 面對設置的第二夹持面,該第一失持面和第二夹持面定義了第—甜口該 M440868 致動機構可觀作地使該第-鉗口變域變小用於釋放或鎖緊該基座。 與現有技術相比,本創作的有益效果:失具具有相面對設置的兩爽持 面,通過致動機構使兩夾持面定義的鉗口變大或變小用於釋放或鎖緊該基 座,使得本創作的斜切鎖緊機構不但操作簡單,而且鎖緊可靠。 較佳地,該第二夾爪與該第—夾爪通過__連接。 較佳地,該夾具還具有與該第—甜口相背對設置且與該致動機構配接 的第二鉗口。 較佳地,_軸_線相對於社作臺的位置值定。 較佳地’紐賴構在纽上的施力點㈣難的轉大於該炎具在 基座上的施力點至該轉軸的距離。 •鉗口相應地變小 較佳地,該致動機構驅使該第二鉗口變大時,該第 、鎖緊基座韻—鉗□變小時,該第_細相應地變大以槪基座。M440868 V. New description: v [New technical field] „ This creation involves a slanting saw. [Prior Art] The traditional slanting cut is a kind of shovel. It has a wide range of applications and can be used for cutting. Chen multi-metal or non-metallic materials, cutting is quick and convenient. The oblique recording generally includes a base, a rotating table set on the base, a rotating mining mechanism with a motor and a silver piece located above the workbench, and A barrier for positioning a workpiece on a workbench, wherein the mining mechanism is rotatably coupled to the guarding table around a towing shaft that is relatively fixed to the table, from the (10) river piece. However, the traditional oblique recording center pivots The distance between the shaft and _ remains fixed, thus limiting its cutting ability. That is to say, it allows the domain and part specifications to be closed within the fixed thickness, so that it cannot cut more specifications of the workpiece. Touching the oblique (four) foot operator's needs. • [New content] The technical problem to be solved by this abuse: to provide a diagonal saw with convenient operation and high cutting ability. This creation solves the above technical problems. Technical solution: a miter saw, comprising: a workbench for cutting a workpiece in a branch building. The workbench is provided with a cutting groove extending along a longitudinal length; a first piece that is mated with the work station; And a second member of the first reading member; a silver mechanism rotatably coupled to the second branch member, the mining mechanism comprising a spoke and a motor for driving the rotation of the spoke, the saw blade at least partially extending into the cutting slot The miter saw further includes a crane mechanism that operatively drives the second support member 40868 for moving the first support member along the extending direction of the butterfly slot. The drive mechanism is coupled to the first support member and the second support member. The main driving member on the smashing member. Compared with the prior art, the beneficial effect of the creation is that the operation of the main driving member makes the second slanting member slanted to the first slab and is easy to operate, and the slanting cutting is improved. Preferably, the main drive scale is connected to one of the two support materials of the first support member, and the main drive member is movably connected to the first member and the second member is coated on the other one. Preferably, the drive mechanism further includes a pivotal connection to the first branch and the first The follower member on the branch member is connected to the first support member and the second support member. Preferably, the main drive member is disposed on the follower member and the saw blade. Preferably, the second support member has a first side portion and a second side remote follower on opposite sides of the rock piece disposed between the first side portion and the second side portion. The driving mechanism further includes a first link connected to the first support and the second support, and the first link and the main drive are respectively disposed on the first side and the second side Preferably, the first link is pivotally coupled to the first drive member coaxially with the main drive member, and the first link is coupled to the recording member ___the second support member Preferably, the driving mechanism further includes a second link symmetrically disposed with the first link. Preferably, the follower intersects the plane in which it is located. Preferably, the driving mechanism further includes a follower member pivotally disposed on the first branch member and the second support member, the follower member being pivotally coupled to the first branch and the second branch Another member - the last, the driven member and movably connected to the main drive member. M440868 Preferably, the training device _ includes a second connection member rotatably connected to the miscellaneous-reading member (four)-connecting member and the frame-connecting member-second member, and the first-connecting cake-two connecting member f is connected, and The county-connecting member and the second connecting body are disposed on the two opposite sides of the second branch member, the main driving member and the driven member SX, respectively. Preferably, the first connecting member is coaxially coupled to the main driving member to the first supporting member r- 〇. Preferably, the second connecting member is connected to the second connecting member and the second supporting member. . Preferably, the second support member is disposed on the first support member by a mating mechanism. Preferably, the fitting mechanism includes a guiding groove disposed on the first branch and the second cutting member, and a guide groove matching the remaining groove on the first branch and the second flap Lead block. Preferably, the second reading member performs the cutting support locking mechanism only in at least two working positions with respect to the first branching position in the at least two working positions. Preferably, the ram member includes a fitting member disposed on the first support member or the second splicing member, and a locking member disposed on the main driving member and engaging with the fitting member. Preferably, the mating member is at least two spaced apart grooves. Preferably, the 'strong crane member' is coupled to the first cutting member or the second supporting member by __, the grooves being circumferentially spaced around the pin. Preferably, the main driving member extends along a longitudinal extension direction of the main driving member to extend a long strap that is engaged with the locking member. Preferably, the locking member is provided with an operating handle for operation by an operator. 5 M440868 Preferably, the support locking mechanism further includes an elastic member that urges the locking member to remain mated with the fitting. Preferably, the elastic member is a compression spring. Preferably, the support locking mechanism further comprises a cover fixedly disposed on the main driving member, the elastic member being disposed between the locking member and the cover. Preferably, the operating handle is provided with a receiving cavity for receiving the elastic member, and the elastic member is located between the cover and the operating handle. Preferably, the predetermined different working positions correspond to the maximum allowable cutting workpiece specifications. Preferably, the maximum allowable cutting workpiece specification includes an allowable maximum dimension of the workpiece in a direction parallel to the longitudinal axis. Preferably, the maximum allowable cutting workpiece specification includes an allowable maximum dimension of the workpiece in a direction perpendicular to the longitudinal axis. This creation also needs to solve the problem of the H type of oblique saw with a reliable slanting _ tightening mechanism. The technical solution adopted by the present invention to solve the above technical problems: the slanting _ includes: a pedestal; a workbench, which is mixed with the base money, and the workbench is provided with a cutting slot Y oblique locking locking mechanism Between the base red reduction table, the inspection platform will be placed or locked, and the 4 caps will be included in the viewing base or the base mechanism for the engagement of the fixture. The centering device is coupled to the workbench and includes a first jaw and a second claw. The first jaw is provided with a first surface, and the second clamping jaw is disposed opposite to the first clamping surface. a second clamping surface, the first missing surface and the second clamping surface defining a first sweet mouth. The M440868 actuating mechanism appreciably reduces the first jaw range for release or locking The pedestal. Compared with the prior art, the present invention has the beneficial effects that the dislocation has two facing surfaces facing each other, and the jaws defined by the two clamping surfaces are enlarged or smaller by the actuating mechanism for releasing or locking the The pedestal makes the oblique locking mechanism of the present invention not only simple to operate, but also reliable in locking. Preferably, the second jaw is connected to the first jaw by __. Preferably, the clamp further has a second jaw disposed opposite the first sweet mouth and mating with the actuating mechanism. Preferably, the _axis_line is determined relative to the position of the social station. Preferably, the point of application of the button on the button is greater than the distance from the point of application of the article on the base to the axis of rotation. The jaws are correspondingly smaller. Preferably, when the actuating mechanism drives the second jaw to become larger, the first and second locking bases become smaller, and the first to the second becomes correspondingly larger. seat.
較佳地,触械構包括_設置職讀臺崎料㈣該操作件 枢轉連接且位於該第二細中的推進件,該推進件相對於該操作件的_ 使推進件在該切簡的縱長延伸方向上產生—㈣位移量。 較佳地,該操作件與該工作臺 量之間έ又置有彈性件,該彈性件用於使該 工作臺相對於該基座處於可轉動狀熊。 較佳地, 座體。 該斜切鎖緊機構還包括 設置於該工作臺上用於容納該夾具的 較佳地 該基座具有與第一爽持面和第二夹持面配接的凸緣,當該夹 具鎖緊基座時,鮮-鱗面和第二錢面與該凸緣匹配。 7 【實施方式】 本創作公開了-種斜喃,觀具體實細進行說明。 如第1圖和2所示,斜斷鑛200包括基座卜用來支樓被切割工件(未Preferably, the mechanical structure comprises: a set of reading materials (4) the operating member is pivotally connected and located in the second thinning of the pushing member, the pushing member is opposite to the operating member The lengthwise extension direction produces - (iv) the amount of displacement. Preferably, an elastic member is disposed between the operating member and the table, and the elastic member is for causing the table to be in a rotatable bear relative to the base. Preferably, the seat. The beveling locking mechanism further includes a flange disposed on the table for receiving the clamp. Preferably, the base has a flange that mates with the first refreshing surface and the second clamping surface, when the clamp is locked At the base, the fresh-scaled face and the second face are matched to the flange. [Embodiment] This work discloses a kind of slanting, and the details are described in detail. As shown in Figures 1 and 2, the oblique mine 200 includes a pedestal for the workpiece being cut by the branch (not
_了— "V '、的工作臺3、g己接在工作臺3上的第—支撐件5、與第一支樓件5配 第-支撐件7、及與第二支樓件7 g己接的鑛機構9。其中鑛機構9通過 ^一樞轉軸U可_的連接在第二支撐件7上,織構9就可以相對 、'座1上'下柜轉來暨直切割工件。在本創作的描述中,除非另外指出, 右、則、後、上和下等的方向術語,都是正常使用該斜斷鑛所定義 、士方向’如疋義罪近操作者的方向為斜斷雜的前側,遠離操作者的方 .向為斜斷鋸的後側。 第支樓件5可相對於工作臺3在順時針和逆時針兩個方向轉動來傾 斜—定角度’從而對工件進行傾斜切割,另外在第—支料5和工作臺3 ^有將第-支料5鎖緊在卫作臺3上的傾斜鎖緊機構Μ,傾斜鎖緊 機構U可把第-支樓件5鎖緊於不同的傾斜位置,從而對工件進行不同傾 斜角度的切割。 第-支樓件5和第二支擇件7均可由鋼_成,如此可以增加剛性, 當然也可以採驗合金材料,如此還可減輕整機重量。 基座1具有在水準方向上讀工件的基座讀自19。在基座i上設有 護攔21 ’該_ 21具有與基座支獅19垂直設置直抵靠面…豐直 抵靠面23用於在g直方向上抵靠讀,對工件進行定位 作。 ,方便進行切割操 工作臺3同樣具有用於在水準方向上支撐工件的工作臺支樓面25,該 M440868 工作臺支_ 25基本躲座支#面!9相伟,讀臺切面25與基座支 撐面19相配合騰鋼支撐林。工作臺3上設有縱長方向延伸的切割槽 1Ί。 鋸機構9包括馬達29、由馬達29驅動的圓鑛片31、定護罩幻和活動 濩罩35 ’其中圓据片31繞著其旋轉轴線37旋轉從而切割工件;在鑛機 構9上還設有操作手柄39和搬運把手41,操作手柄39用於操作者握持鑛 機構9進行切割工作,在操作手柄39上還設有開關(未圖示),用來啟動 和關閉馬達.29 ;搬運把手41用於方便操作者搬運斜斷鑛2〇〇 ;定護翠幻 通吊與馬達29固定連接,用以遮蓋住部分圓据片31 ;活動護罩%欽接在 定護罩33上,用於在斜斷鑛處於非切割位置時,遮蓋住剩餘的圓鑛片 3卜而且活動護罩35可以相對定護罩33旋轉,以暴露_片31用來切割 工件。活動鮮35連接柿動鮮驅練置4S,用錄速打開和關上活動 護罩35 ’此處動鮮驅織置43為連杆,钱,也可以設計成其他結 構。 % 鋸機構9與第一支標件7通過帛一樞轉轴u連接,從㈤,按壓操作手 •柄39就可以使賴構9拖轉來執行切割工作。當切割工件時,_片31 至少部分伸入切割槽27内。 彳卫作臺3可_的設置在基座丨上,使得該工作臺3可帶祕機構9 , 赠於基座1飾,便於進行轉的斜向__整,也就是本領域技術 所稱的對斜切角度進订調整Q工作臺3的轉動改變圓錄片Η相對於護 攔21的角度,但始終保持_片31與工作臺3相垂直。 如第3圖、4和5所示,斜斷鑛2〇〇上還設有將工作臺3鎖定在基座i 9 M440868 上的斜切鎖緊機構45。斜切鎖緊機構45設置在基座ι與卫作臺3之間且 斜切鎖緊麵45可在釋放位置和鎖緊位置之_動,將工作臺I相對 於基座1釋放和鎖緊。當斜切鎖緊機構45處於釋放位置時,工作臺3相對 於基座1可自由轉動。如第6圖和7所示,當工作臺3相對於基座【旋轉 到-定位置時’操作斜切鎖緊機構45使其移動到鎖緊位置,此時斜切鎖緊 機構45使得工作臺3不能相對於基座i機,然後就可操作雜機構9對工 件進行切割。 參照第3圖至第5圖’斜切鎖緊機構45包括用於釋放或鎖緊基座3的 夹具47和用於操作夾具酿動機構49,夾具47設置於轉臺3上致動 _ 49可娜乍地使夾具47將工作臺3相對於基座【職,從而使工作 臺3可相對於基座1自由轉動,靖工作臺3相對於基座丨的角度,當調 即到所需要角度時,操作致動機構49,使纽π鎖緊基座1,從而把工作 臺3鎖緊於基座丨上,對工件進行斜切。 夾具47包括第-夹爪5〇和第二夹爪…第一夾爪如上設置有第一夹 持面52,第二夾爪51上設置有第二夾持㈣,其中第二夾持面α與第一 夾持面52相面對設置,且第一夾持面52和第二失持面幻定義了可與基座 1配接的第—钳〇 55。致動機構49可被操作地使第-夾持© 52和第二夾 持面53作相對移動’從而使第一鉗口 Μ變大或變小,用於釋放或鎖緊基 座1。 土 本較佳實施例中’第一央爪5G和第二夾爪51通過轉轴57旋轉連接。 當然,第__ . 爽爪50和第二央爪51也可以採用其他的連接的方式如第二 夹爪51相對於第一夹爪50可滑移地設置,只要第-夹持面52和第二夹持 M440868 面53能作相對移動,使I夾持面η和第二祕面a之間祕離變大或 縮小’從而使第-夹持面52和第二失持面53所定義的第一甜口 %將工作 臺3相對於基座1釋放或鎖緊。 第-夾爪50相對於第二夹爪51旋轉的轉轴57的鱗相對於工作 的位置怪定。從而使得斜切鎖緊機構Μ穩定,而且結構簡單。 本較佳實_,_7設置社作臺3上,__ _ ^ 結構簡單。 丨用戶操作贿機構49,驅使失具47將工作臺珊於基座丨上時,致 動機構49在爽具47上的施力點至轉轴57的距離大於夹具π在基座工上 的施力點至_7的轉,即致動機構49侧於纽Ο的施力力臂大於 夾具47作用於基座i的施力力臂,根據能量守恒原理,致動機構的作用 :夾具47的力懈具47作姆座1的力,嶋_作起來非常 i力致動機構49只要作用於夹具47較小的力,就可驅使爽具π作用於 基座1較大的力’因此不但操作省力,而且夾具能可靠地將轉臺鎖緊於 基座。 、、 配接的第二 夹具47還具有與第-甜口 55相背對設置且與致動機構49 叙口 59。 另外,如第6圖和7所示,當致動麟49驅使第二甜口%變大時, 5相應地變小以鎖緊基座!,從而將工作臺3可靠地_了—"V', the workbench 3, the first support member 5 that has been attached to the workbench 3, the first support member 5, the first support member 7, and the second support member 7 g has been connected to the mining agency 9. The mine mechanism 9 is connected to the second support member 7 via a pivoting shaft U. The texture 9 can be rotated relative to the lower seat of the 'seat 1' and the workpiece can be cut straight. In the description of this creation, unless otherwise stated, the directional terminology of right, then, back, up, and down is the normal use of the oblique ore mine definition, and the direction of the sinus is as close as the operator's direction. The front side of the broken saw is away from the operator's side. The direction is the rear side of the oblique saw. The first floor member 5 can be tilted in a clockwise and counterclockwise direction with respect to the table 3 to tilt-set the angle to cut the workpiece obliquely, and in the first branch 5 and the table 3^ The slanting locking mechanism U is locked to the slanting locking mechanism 卫 on the turret 3, and the slanting locking mechanism U can lock the first fulcrum member 5 to different inclined positions, thereby cutting the workpiece at different oblique angles. Both the first branch member 5 and the second support member 7 can be made of steel, which can increase the rigidity, and of course, the alloy material can also be examined, which can also reduce the weight of the whole machine. The susceptor 1 has a pedestal read 19 that reads the workpiece in the horizontal direction. A damper 21 is provided on the base i. The _ 21 has a vertical abutment surface with the pedestal lion 19. The abutment surface 23 is used to abut the reading in the straight direction of g, and the workpiece is positioned. Convenient for cutting operation The table 3 also has a table supporting floor 25 for supporting the workpiece in the horizontal direction. The M440868 table supports _ 25 basic escaping #面! 9 phase Wei, the reading table cut surface 25 and the base support surface 19 cooperate with the Tenggang support forest. The table 3 is provided with a cutting groove 1Ί extending in the longitudinal direction. The saw mechanism 9 includes a motor 29, a round ore 31 driven by a motor 29, a fixed cover phantom and a movable cover 35' in which the circular piece 31 rotates about its axis of rotation 37 to cut the workpiece; An operating handle 39 and a carrying handle 41 are provided. The operating handle 39 is used for the operator to hold the mining mechanism 9 for cutting work, and the operating handle 39 is further provided with a switch (not shown) for starting and stopping the motor. 29; The carrying handle 41 is used for facilitating the operator to carry the oblique broken mine 2; the fixed protection pylon hanging crane is fixedly connected with the motor 29 for covering a part of the round piece 31; the movable shield is inscribed on the fixed cover 33 For covering the remaining round ore 3 when the oblique ore is in the non-cutting position, and the movable shield 35 can be rotated relative to the fixed cover 33 to expose the sheet 31 for cutting the workpiece. Activity fresh 35 connected persimmon fresh drive to set 4S, use the recording speed to open and close the activity. Shield 35 ′ here, the fresh drive woven 43 is the connecting rod, money, can also be designed into other structures. The sawing mechanism 9 is connected to the first indexing member 7 via a pivoting axis u. From (5), pressing the operating handle shank 39 can cause the raking 9 to be dragged to perform the cutting work. When the workpiece is cut, the _ sheet 31 at least partially protrudes into the cutting groove 27. The defending table 3 can be disposed on the base ,, so that the worktable 3 can carry the secret mechanism 9 and be presented to the base 1 for easy swaying, which is known in the art. The rotation of the skew cutting angle adjustment Q table 3 changes the angle of the circular recording cassette Η relative to the barrier 21, but always keeps the _ sheet 31 perpendicular to the table 3. As shown in Figures 3, 4 and 5, a beveled locking mechanism 45 for locking the table 3 to the base i 9 M440868 is also provided on the slanting mine. The bevel locking mechanism 45 is disposed between the base ι and the guard table 3 and the bevel locking surface 45 is movable in the release position and the locking position to release and lock the table I relative to the base 1. . When the bevel locking mechanism 45 is in the release position, the table 3 is free to rotate relative to the base 1. As shown in FIGS. 6 and 7, when the table 3 is moved to the locking position with respect to the base [rotating to the fixed position], the bevel locking mechanism 45 is made to work. The table 3 cannot be machined relative to the base unit, and then the workpiece 9 can be operated to cut the workpiece. Referring to Figures 3 to 5, the bevel locking mechanism 45 includes a jig 47 for releasing or locking the base 3 and a jig brewing mechanism 49 for actuating the jig 47 on the turntable 3 to actuate _ 49 The clamp 47 allows the table 47 to position the table 3 relative to the base so that the table 3 can freely rotate relative to the base 1, and the angle of the table 3 relative to the base is adjusted as needed. At the angle, the actuating mechanism 49 is operated to lock the base 1 so that the table 3 is locked to the base cymbal to chamfer the workpiece. The clamp 47 includes a first jaw 5 〇 and a second jaw. The first jaw is provided with a first clamping surface 52 as above, and the second clamping jaw 51 is provided with a second clamping (four), wherein the second clamping surface α The first clamping surface 52 and the second lost surface define a first jaw 55 that can be mated with the base 1 . The actuating mechanism 49 is operative to relatively move the first gripping member 52 and the second gripping surface 53 to cause the first jaw Μ to become larger or smaller for releasing or locking the base 1. In the preferred embodiment, the first center claw 5G and the second jaw 51 are rotatably coupled via a rotating shaft 57. Of course, the first __. cool pin 50 and the second central claw 51 can also be slidably disposed relative to the first jaw 50 by other means of connection, as long as the first clamping surface 52 and The second clamping M440868 face 53 can be moved relatively to make the separation between the I clamping surface η and the second secret surface a larger or smaller, so that the first clamping surface 52 and the second clamping surface 53 are defined. The first sweet mouth % releases or locks the table 3 relative to the base 1. The scale of the rotating shaft 57 of the first jaw 50 with respect to the second jaw 51 is strange with respect to the working position. Thereby, the bevel locking mechanism is stable and simple in structure. The better _, _7 is set on the social office 3, and the __ _ ^ structure is simple. When the user operates the bribe mechanism 49 to drive the disarm 47 to mount the table on the base, the distance from the point of application of the actuating mechanism 49 to the shaft 57 on the sink 47 is greater than the distance of the jig π on the base. The force application point to the turn of _7, that is, the force applying arm of the actuating mechanism 49 on the side of the button is larger than the force applying arm of the clamp 47 acting on the base i. According to the principle of conservation of energy, the action of the actuating mechanism: the force of the clamp 47 47 is the force of the m-seat 1, and the 致 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Moreover, the clamp can securely lock the turntable to the base. The mating second clamp 47 is also disposed opposite to the first sweet mouth 55 and is associated with the actuating mechanism 49. In addition, as shown in Figures 6 and 7, when the actuating lining 49 drives the second sweet mouth % to become larger, 5 is correspondingly smaller to lock the pedestal! Thus that the workbench 3 is reliably
1上。如第4圖和第5圖所示,第'基J 第-鉗口 59變小時,第一鉗口 55相應地變 大以釋放基座。使工作臺3相對 子於基座1可自由轉動’從而調節工作 目對於基座!雜置,肛魏行不㈣度的斜切。 M44U868 本較佳實施例中,致動機構49包括通過第—她Μ赠設置於 ::瑪作件63’及通過第二樞軸65樞轉設置於操作相的推進㈣。 -樞轴61與第二姉65間隔—段距離設置,進件幻位於第二甜口分 。當操作件63被操作地促動推進件67樞轉傭件Μ相對於推進件幻 的_使推進件67在切割槽27的縱長延伸方向上產生—定的位移量上 述位移量足以使夾具47槪_ 座】。 推進件67在切割槽2?的縱長延伸方向上遠離夹具π產生的位移量, 用麵夹具47釋放基座卜相應地,推進件Μ在切割槽π的縱長延伸方 向上靠近夹具.47產生驗移量,祕使夹具π鮮基座卜 ,操作件63設置在工作臺3的前端’這樣便於使用者操作,上述的前端 為通常定義的操作者操作的方向。 如第3圖麻,操作件63與轉臺3之間設置有彈性件69,當斜切鎖 緊機構45處於釋餘終件69用於使工作臺3撕於基座^處於 可轉動狀態,這樣可更方便地操作工作臺3的轉.本較佳實施例中,彈 性件69設置為壓簧。當然’彈性件的也可以設置為扭簧或拉菁等其他類 型的彈性件。 斜切鎖緊機構45還進一步包括可部分容納夾具47的座體73,座體乃 通過螺栓75 B]定設置於工作臺3上,轉轴57也可設置於座體73上。 座體73具有收容部77,收容部77用於收容第一夹爪%,使夹具耵 更加穩定* 基座1具有與第—夾持面52和第二夾持面53配接的⑽79,當夾具 47可被操作地將工作臺3鎖緊於基座i上時,第一夹持自52和第二失持面 12 53與凸緣79匹配。這樣大大增加了配接面積,將工作臺3更可靠地鎖緊於 基座1. 本較佳實施例中,第—樞軸61設置於工作臺3上,工作臺3上設置有 通孔81,第-枢轴61穿設於通孔81中。第二枢轴&可轉動地設置於操作 件63上,推進件67設置於第二樞軸沾上。 另外,第-樞ϋ 61與第二樞軸65平行,這樣當旋轉操作件63,從而 促動推進件67時,由於增長了操作操作件63的力臂,使得操作起來非常 省力,更加方便操作。 本較佳實施例中,推進件67 @定設置於第二枢轴&上。當然,推進 件67也可活動設置於第二樞軸幻上。 如第4圖和5所示’當向上轉動操作件63時’推進件67被促動,從 使夾八釋放基座1。具體為推進件π沿第二框轴仍相對於操作件幻框 轉’上述枢轉使推進件67在切割槽27的縱長延伸方向上遠離夹具π產生 一定的位移量,上述位移量足以做具釋玫基座丨,從而使工作臺3相對於 基座1可自由轉動。 進-步參照第6圖和7 ’當把卫作臺3轉動到所需要的斜切角度時,向 下轉動操料…此雜料π 動,㈣技具崎龜卜具體為 推進件67沿第二框軸65相對於操作件63框轉,該轉使推進㈣在切 割槽27的縱紐伸方向上#近夾具π纽―定_移量,雜移量足以 使夾具47騎紐卜從响工健3錄於基座丨上,紐可對工件進 行斜切。 如第3圖所示,操作件63上設置有配接孔82,第-樞轴61穿設於配 13 M440868 接孔82中,推進件67縱長延伸的方向與第二抱轴65的軸線相垂直。 另外為使斜切驟機構45操作更加省力,雜57設置成與第一拖轴 61平行。進一步的,轉軸57也與第二樞軸仍平行。 斜斷鋸上還進-步設置有斜角定位機構83,斜角定位機構83用於實現 工作臺3與基座1之間的快速定位。斜角定位機構们包括轉設置於座體 77的定位件85,定位件85與座體77之間設置有壓箸87,纽件%上設 置有與基座1上的凹口 89 g麵突起部91,壓簧87用於使突起部%與基 座1上的凹口 89保持配接。 進-步參照第8圖’本較佳實施例中,斜鑛包括可操作地驅動第二 支樓件7相對於第-支翁5沿_槽27的延伸方向鑛的驅動機構%。 該驅動機構93包括活動配接於第—支餅7和第二支餅5上的主驅動件 操作者可直接操作主驅動件%,從而使第二支標件7相對於第一支撐 件5沿切割槽27的延伸方向_ ’以進行不同規格功的蝴。本創作的 斜_具有較高的切割能力,鱗作方便。 驅動機構93還包括從動件9?,主驅動件%植轉設置於第一支標件$ 和第二續件7之—上,細牛π轉連接於第—支料$和第二支撐件 上且從動件97活動連接於主驅動件%上。如此設置,第二支撐 件7相對於第-支料5的猶更穩定可靠。 ,在本實把例中’主驅動件95通過鎖轴98框轉設置於第一支樓件5上, j動件97的通過銷軸99框轉連接於第二支標件7上,且主驅動件%還通 過錦轴101與從動件97樞轉連接。 ’、、、:該主驅動件95與從動件π還可以通過其他的活動連接方式, 14 M440868 如銷和滑槽的配合等 當要移動第二支料7時,鶴故 支樓件5姉,進W鶴件97帶動’/件%相對於第一 標件在切簡㈣延伸方向上㈣n移動,從而使第二支 此,該斜斷爾方便調節。 _割不同規格的工件。因 為了使該驅嶋93更加穩定、可靠的驅動第二支撐件7相對於第 支撐件5移動,該驅動機構93在設置 、 ►設有第-連接細和第二連接㈣5。物5和錢件97的另一側還 件ίο、中第連接件如的第—端轉連接於第—支料5上,第-連接 件1〇5的第一端樞轉連接於第二支標件7上,且第一連接件1〇遍 與第二連接件則第二端活_。 3的第二端 在本實施例令,第一連接件1〇3和 -趣物與主驅動件95和從動件97也可以不對稱設置。 於第—==Γ"1(>3 # 95同她轉連接 95的第-端通㈣樞轉連接導靖2的第-端與主驅祕 擒件=連接件105的第一端與從動件97的第—端同轴轉連接於第二支 第一連接件1(B的第二 轉連接,簡膽她喝[1G5㈣—1〇7枢 15 M440868 第二支撐件7相對於第一支撐件5沿切割槽27的延伸方向可移動地設 置在第一支撐件5上。在本實施例中,第二支撐件7通過配合機構109設 置於第一支撐件5上’並在到達至少兩個預先確定的工作位置後進行切割 工作,而在移動過程中無法進行工作。 預先確定的工作位置與可容許的最大切割工件規格相對應。可容許的 工件的最大切割規格包括可容許的工件在縱軸13方向上的最大尺寸,也就 是工件的寬度、或是在垂直於縱轴13方向上的最大尺寸,也就是工件的高 度。 配合機構109包括設置在第一支撐件5上的沿縱軸13方向延伸的導引 塊m '設置在第二支樓件7上的與導引塊lu配合的導引槽113,當然, 導引塊111也可以設置在第二支撐件7上,而與其相配合的導引槽設置 在第一支樓件5上。 如此’通過導引塊111相對於導引槽113之間的滑動磨擦配合,第二支 擇件7相對於第—支將5可沿絲轴13的方向前、後移動,且縱轴u 垂直於第一樞轉軸U。 而導引塊m和第-支稽件5可以一體成形;導引槽m和第二支樓件 7也可以_體成形。如此’該斜斷魅需借助於其他媒介就可以實現第二支 芽件7相對於第-支樓件5的滑動’所以使得該斜斷鑛的結構緊凑、成本 且由於該斜賴只有在預先確定的幾個工作位置之間進行滑〗 以不會經常滑動,如此也會減少_⑴和_⑴之_磨損, 為了減少磨損,也可以她丨槽113和導⑽U1之間設置磨擦塾。 M440868 β在本較佳實施例中,導引槽113為燕尾槽,當然,導引槽1〇5還可以 疋Τ型槽、V觸魏糊配合槽。响丨塊⑴設置成與導引槽I。 相匹配的形狀。 Β 第二支料7相對於第—支撐件5僅在至少兩_定卫作位置進行切 割工作。斜斷鑛2〇〇還包括支撐件鎖緊機構出。支標件鎖緊機構⑴用於 提供第二域件7相對於第—支餅5在預定的I作位置的_定,也1 on. As shown in Figs. 4 and 5, when the 'J-th first-jaw 59 becomes smaller, the first jaw 55 is correspondingly enlarged to release the susceptor. The table 3 can be freely rotated relative to the base 1 to adjust the work to the base! Miscible, anal Wei line does not (four) degrees of chamfering. M44U868 In the preferred embodiment, the actuating mechanism 49 includes a push (4) that is disposed on the operating phase by pivoting through the first and third pivots 65. - The pivot 61 is spaced from the second turn 65 by a segment distance setting, and the input is magically located at the second sweet spot. When the operating member 63 is operatively urged by the pusher 67 to pivot the commission member Μ relative to the propulsion member, the pusher member 67 produces a predetermined amount of displacement in the longitudinal extension direction of the cutting groove 27. 47槪_ Block]. The amount of displacement of the pushing member 67 away from the jig π in the longitudinal extension direction of the cutting groove 2 is released by the surface jig 47. Accordingly, the advancing member 靠近 is adjacent to the jig in the longitudinal extension direction of the cutting groove π. The amount of inspection is generated, and the fixture is π fresh pedestal, and the operating member 63 is disposed at the front end of the table 3 to facilitate user operation. The front end is a generally defined direction of operation of the operator. As shown in FIG. 3, an elastic member 69 is disposed between the operating member 63 and the turntable 3, and when the bevel locking mechanism 45 is in the release end member 69 for tearing the table 3 to the base, the rotating member is in a rotatable state. This makes it easier to operate the turn of the table 3. In the preferred embodiment, the resilient member 69 is provided as a compression spring. Of course, the elastic member can also be provided as another type of elastic member such as a torsion spring or a pull-up. The bevel locking mechanism 45 further includes a seat body 73 that can partially receive the clamp 47. The seat body is fixed to the table 3 by bolts 75 B], and the shaft 57 can also be disposed on the seat body 73. The base 73 has a receiving portion 77 for accommodating the first jaw % to make the clamp 耵 more stable. The base 1 has a (10) 79 matched with the first clamping surface 52 and the second clamping surface 53. When the clamp 47 is operatively locked to the base i, the first clamp 52 and the second lost grip surface 12 53 match the flange 79. This greatly increases the mating area, and the table 3 is more reliably locked to the base 1. In the preferred embodiment, the first pivot 61 is disposed on the table 3, and the table 3 is provided with a through hole 81. The first pivot 61 is bored in the through hole 81. The second pivot & is rotatably disposed on the operating member 63, and the pusher member 67 is disposed on the second pivot. Further, the first pivot 61 is parallel to the second pivot 65, so that when the operating member 63 is rotated to thereby urge the pusher 67, since the force arm of the operating member 63 is increased, the operation is very labor-saving and more convenient to operate. . In the preferred embodiment, the pusher 67 is disposed on the second pivot & Of course, the pusher 67 can also be movably disposed on the second pivot. As shown in Figs. 4 and 5, when the operating member 63 is rotated upward, the pusher 67 is actuated to release the base 1 from the clip. Specifically, the pivoting of the pushing member π along the second frame axis with respect to the operation frame is caused by the above-mentioned pivoting, so that the pushing member 67 generates a certain amount of displacement away from the jig π in the longitudinal extension direction of the cutting groove 27, and the above displacement is sufficient. The pedestal base is released so that the table 3 is free to rotate relative to the base 1. Step-by-step 6 and 7' When the steering table 3 is rotated to the desired bevel angle, the material is turned downwards... This material is π-moving, and (4) the tool is called the propeller 67. The second frame shaft 65 is framed with respect to the operating member 63, and the rotation advances (4) in the longitudinal direction of the cutting groove 27, and the amount of miscellaneous movement is sufficient to cause the jig 47 to ride. The Gonggong 3 is recorded on the pedestal, and the workpiece can be chamfered. As shown in FIG. 3, the operating member 63 is provided with a matching hole 82 through which the first pivot shaft 61 is inserted, and the direction in which the pusher 67 extends longitudinally and the axis of the second retaining shaft 65. Vertical. Further, in order to make the operation of the beveling mechanism 45 more labor-saving, the miscellaneous 57 is disposed in parallel with the first towing shaft 61. Further, the shaft 57 is also parallel to the second pivot. The beveling saw is further provided with a bevel positioning mechanism 83 for achieving rapid positioning between the table 3 and the base 1. The bevel positioning mechanism includes a positioning member 85 that is disposed on the base body 77. The pressing member 87 is disposed between the positioning member 85 and the seat body 77. The button member is provided with a notch 89g protrusion on the base 1 In the portion 91, the compression spring 87 is used to keep the protrusion % in engagement with the notch 89 on the base 1. Referring to Fig. 8 in the preferred embodiment, the slanting ore includes a drive mechanism % that operatively drives the second branch member 7 relative to the direction of extension of the first branch 5 along the slot 27. The drive mechanism 93 includes a main drive member that is movably coupled to the first support 7 and the second support 5. The operator can directly operate the main drive member % such that the second support member 7 is relative to the first support member 5. Along the direction in which the cutting groove 27 extends _ 'to perform the work of different specifications. The oblique _ of this creation has a high cutting ability and scales are convenient. The driving mechanism 93 further includes a follower 9?, the main driving member is planted on the first branching member $ and the second continuation member 7, and the fine bolus is connected to the first support and the second support The follower 97 is movably connected to the main drive member %. With this arrangement, the second support member 7 is more stable and reliable with respect to the first support 5. In the present embodiment, the main driving member 95 is pivotally disposed on the first branch member 5 through the lock shaft 98, and the pin member 99 is rotatably connected to the second branch member 7 through the pin shaft 99, and The main drive member % is also pivotally coupled to the follower 97 via the brocade shaft 101. ',,,: The main drive member 95 and the follower π can also be connected by other movable means, 14 M440868, such as the cooperation of the pin and the chute, etc. When the second support 7 is to be moved, the crane support 5姊, into the W crane 97 drive '/ piece % relative to the first standard in the direction of the cut (four) extension direction (four) n movement, so that the second branch, the oblique cut is convenient to adjust. _ Cut workpieces of different specifications. In order to drive the drive member 93 to move the second support member 7 relative to the first support member 5 more stably and reliably, the drive mechanism 93 is provided with a first connection fine and a second connection (four) 5. The other side of the object 5 and the money member 97 is further connected to the first branch 5, and the first end of the first connecting member 1 is pivotally connected to the second On the support member 7, and the first connecting member 1 is traversed with the second connecting member and the second end is alive. The second end of the third embodiment In the present embodiment, the first connecting member 1〇3 and the fun object and the main driving member 95 and the follower member 97 can also be asymmetrically disposed. In the first -==Γ"1 (>3 #95 with her first connection to the terminal 95 (four) pivotally connected to the first end of the guide 2 and the main drive member = the first end of the connector 105 and The first end of the follower 97 is coaxially connected to the second first connecting member 1 (the second connecting connection of B, bluntly she drinks [1G5 (four) - 1 〇 7 pivot 15 M440868 second support 7 relative to the first A support member 5 is movably disposed on the first support member 5 along the extending direction of the cutting groove 27. In the present embodiment, the second support member 7 is disposed on the first support member 5 by the mating mechanism 109 and is arriving The cutting work is carried out after at least two predetermined working positions, and the work cannot be performed during the movement. The predetermined working position corresponds to the maximum allowable cutting workpiece size. The maximum cutting specifications of the allowable workpiece include allowable The maximum dimension of the workpiece in the direction of the longitudinal axis 13, that is to say the width of the workpiece, or the maximum dimension in the direction perpendicular to the longitudinal axis 13, that is to say the height of the workpiece. The mating mechanism 109 comprises a first support 5 arranged on the first support 5 A guiding block m' extending in the direction of the longitudinal axis 13 is disposed in the second branch The guiding groove 113 matched with the guiding block lu on the 7th, of course, the guiding block 111 can also be disposed on the second supporting member 7, and the guiding groove matched thereto is disposed on the first supporting member 5. Thus, by the sliding friction fit between the guiding block 111 and the guiding groove 113, the second supporting member 7 can move forward and backward with respect to the first branch 5 in the direction of the wire axis 13, and the vertical axis u is vertical The first pivoting shaft U. The guiding block m and the first branching member 5 can be integrally formed; the guiding groove m and the second branching member 7 can also be formed into a body. The medium can achieve the sliding of the second bud member 7 relative to the first branch member 5, so that the structure of the slanting mine is compact and costly and since the slanting is only between a predetermined number of working positions Sliding so as not to slide often, thus also reducing the wear of _(1) and _(1), in order to reduce wear, it is also possible to provide a friction 丨 between her gutter 113 and the guide (10) U1. M440868 β In the preferred embodiment, The guiding groove 113 is a dovetail groove. Of course, the guiding groove 1〇5 can also be used for the groove and the V-contacting paste. It is arranged to match the shape of the guiding groove I. Β The second material 7 is cut only at at least two fixed positions relative to the first support member 5. The oblique broken mine 2 also includes a support lock The tightening mechanism is provided. The support member locking mechanism (1) is configured to provide a position of the second domain member 7 relative to the first branch member 5 at a predetermined position.
就是用於將第二支擇件7與第一支樓件5的相對位置固定,從而實現穩定 籲切割。 W 支標件鎖緊機構II5包括設置於第一支樓件5或者第二支標件7上的 配合件1Π以及設置於主驅動件%上與配合件m配合的鎖緊件⑽。如 此’用戶操作主驅動件9S既可使第二支樓件7相對於第一支樓件移動,也 可把第二支撐件7鎖定於歉的讀位置,制實現單手操作,非 用戶使用。 為了與斜斷鑛的預定的X作位置相匹配,配合件117為至少兩個間隔 设置的凹槽。在本實細巾,g&合件117是三綱隔設置的凹槽。當然, 根據使用的需要,凹槽的個數可以是2個,4個或者更多。 主驅動件95通過銷軸98柩轉連接於第一支撐件5或者第二支撐件7 上’凹槽圍繞銷轴98周向間隔設置。 主驅動件95上沿主驅動件95的縱長延伸方向延伸設置有與鎖緊件119 配接的長孔121。 鎖緊件119上設置有供操作者操作的操作把手123。操作把手123可以 方便操作者控制鎖緊件119的位置。在不同的支撐件鎖緊機構實施方式中, 17 M440868 操作把手控制鎖緊件U9位置的結構形式也不同。 支樓件鎖緊機構115還包括促使鎖緊件119始终與配合件保持配合的 彈性件125。由於設置了彈性件125,可以使支撐件鎖緊機構n5在鎖緊件 119到達與配合件117配合的位置後,保持鎖緊件119與配合件117的配合 狀態,操作者不需施加額外的保持力,操作方便,舒適。在本實施例中, 彈性件125為壓簧。當然,本領域技術人員容易知道,彈性件125還可以 採用其他結構形式,比如拉簧,扭簧或者其他能夠對鎖緊件119產生偏壓 抵靠力的彈性結構。 支樓件鎖緊機構115還包括固定設置於主驅動件95上的蓋體127。彈 性件125設置於鎖緊件119與蓋體127之間。蓋體127相對於主驅動件% 固定設置,止擋彈性件125從主驅動件95上脫出。 在本實施例中’操作把手123上設置有用於收容彈性件125的收容腔。 彈性件125位於蓋體127與操作把手123之間。這樣,可以充分利用操作 把手I23與蓋體I27之間的空間,既可以實現操作把手⑵對鎖緊件119 位置的控制,又可以以最緊湊的結構放置彈性件125。達到了各種功能結構 的最佳配合。 在具體的實施方式中’斜斷鑛具有三個預先確定的工作位置。相應的, 在第二支料7上設有與確定的三個卫作位置相對應配合件,即第一、 第二、第三收容槽129、131、133。在主驅動件lu上設置有與上述收容槽 129、13卜133相配合的鎖緊件119。本實施例中,鎖緊件是銷釘。當然, 本領域技術人員也可以將鱗件119設置為其他結構形式,比如螺釘或者 凸輪等。在本實施例中,鎖緊件119可滑移地設置於主驅動件%上。較佳 U440868 地,鎖緊件沿著垂直於雜98的方向雜,也就是說,主驅動件%上的 長孔121的延伸方向垂直於銷轴98。 ‘ 進一步參照第9圖和10,在本實施例中,彈性件125為壓f。支樓件 鎖緊機構115還包括通過螺栓129固定設置於主驅動件⑴上的蓋體127 , 彈性件125設置於鎖緊件119與蓋體127之間。由於受彈性件125的壓迫, 在沒有外力作用的情況下,鎖緊件119始終保持與第一、第二、第三收容 槽129 131 133中的-細己合。這樣在工作位置時,鎖緊件η;與相應 籲收容槽配合,可以實現對第二支樓件7的可靠鎖緊。 主驅動件95上設置有與鎖緊件m配接的長孔121,長孔ΐ2ι沿驅動 件in的縱長延伸方向延伸。操作把手123套設於主驅動件95的一端。本 實施例中,鎖緊件119是圓柱形銷釘,穿設於操作把手123上。鎖緊件ιΐ9 相對於操作把手123不可線性移動,但是可以沿長孔121線性移動。鎖緊 件⑴的轴線垂直於主驅動件95的縱長延伸方向。操作把手123内設置有 用於收容彈性件⑵的收容腔⑽蓋體⑺位於操作把手⑵遠離鎖緊件 II9的。操作把手I23内具有用於抵靠彈性件的抵靠面。彈性件⑵位 於蓋體U7 *操作把手123之間。本實施财,彈性件125 一端抵靠於蓋 體I27 ’另一端抵靠於操作把手1Z3的抵靠面上。 在彈性件125的彈力作用下,操作把手123遠離蓋體⑺,操作把手 I23 ▼動鎖緊件II9與第二支樓件7上的相應枚容槽配接,從而第二支撐件 7被可靠鎖緊。 進-步參照第11圖,操作操作把手m,使操作把手⑵克服彈性件 125的彈力’向#近盍體127的方向移動,操作把手123帶動鎖緊件lip與 19 M440868 第-支撐件7上的相應收容舰開,從而第二支餅7被釋放,第二支撐 件7相對於第—讀件5可移動。 田鎖緊件iis>與第二支擇件7上的相應收容槽脫開,第二支標件7被 釋放時’扳動操作把手123,帶動主驅動件95運動,第一連接件⑴被聯 動從而帶動第二支揮件7相對於第-支樓件5移動。當移動到預定工作 位置時’釋放操作把手123,在彈性件125的彈力作用下,操作把手⑵帶 動鎖緊件119自動與第二支稽件7上的相應收容槽配接,從而第二支樓件7 被可靠鎖緊。 本較佳實施例中’斜斷錯200設置有三個工作位置。進—步參照第12 圖鎖緊件II9與第一收容槽⑵配接,把第二支樓件7鎖緊在第一工作 位置。 如第13圖所示,鎖緊件119與第二收容槽131配接,把第二支標件7 鎖緊在第二工作位置。 如第14圖所示,鎖緊件119與第三收容槽133配接,把第二支撐件7 鎖緊在第三工作位置。 該斜斷鑛200還包括用於指示預先確定的工作位置的指示機構139。指 示機構139包括s又置在第-支樓件5上的工作位置標記141和設置在第二 支標件7上的指示標記I43。當第二支撐件7運動到相應工作位置時指示 標記143與工作位置標記141正對。當然,工作位置標記也可以設置在第 二支撐件5上,而與其相配合的指示標記設置在第一支樓件4上。與預定 的工作位置數量減應,如第12圖至15所示,1作位置標記139包括第 -、第二、第三工作位置標記145、147、149。當然,卫作位置標記139最 20 M440868 好是使用最大切割工件的規格做標記,方便操作者使用。 另外為更方便操作者觀察,工作位置標記139設置於靠近第一第二、 第一收合槽129、131、133的位置,相應地,第一、第二、第三工作位置 標記141 143、145與第一、第二、第三收容槽129、⑶、相對應設 置’用於才曰不斜斷鑛的不同切割位置,此時可不用另外設置指示標記。當 」工作位置標記139最好是使用最大切割工件的規格做標記。 如第12圖所不’在第—工作位置,這時斜斷鑛的最大切割工件規 籲格是最大寬度是6英寸的工件最高可切2英寸;或是最大高度是*英 寸的工件棚最同可切4英寸^也就是說在這一位置,只要小於該最大切 割工件規格的工件,即在平行於縱轴方向上小於等於6英寸,以及在垂直 於縱軸方向上小於等於2英寸,則該斜斷鑛可以完成。 如第13.圖所不’在第二工作位置’這時斜斷雜⑽力最大切割規格是 兩個最大寬度是6英寸的,最高可切2英寸的工件柳。也就是說在這一位 置’只要小於該最大切割工件規格的工件,該斜斷鑛都可以完成。另外, 也可同時切」歲個工件’只需確保幾個工件疊加後的尺寸仍在斜斷雜的最 大切割範園内即可。 如第14圆所不’在第二工作位置’這時斜斷銀2_最大切割規格是 最大寬度是8英寸的工件彻最高可切2英寸。也就是說在這一位置只 要小於該最切U工件職的工件,鱗_射以完成。 、本創作的構獅樣適合於第—域件5和第二支餅7之間的配合表 面並不疋平订於縱軸1;3方向,也就是說第二支樓件7相對於第一支撐件$ 移動方向並不需要總是沿著縱軸13方向。如此,有利於提高斜斷鑛的切割 21 M440868 能力。而且該配合表面還可以不是平面,可以是曲面等其他形狀的表面。 这時,若干預先確定的工作位置在縱轴13方向上的投影依次排列。也 就是說’雜第二支餅相對料—支撐件實際的運動方向不—定是平行 於縱轴方向,但該實際運動方向在平行於縱轴方向上有分量。 當然’第二支樓件也可以不通過滑動的方式來實現其相對於第一支樓 件前、後移動。 如第15圖至17所示’本創作的第二實施方式,與第一實施方式相同, 斜斷鑛彻包括基座M7、用來支樓被切割工件(未圖示)的工作臺⑽、 g己接在工作臺149上的第-支撐件151、與第—支撐件151配接的第二支樓 件153、及與第二支撐件153配接的鑛機構155。其中雜機構155通過轉 軸I57可棍轉的連接在第二支撐件⑸上。工作臺⑽上設有縱長方向延 伸的切割槽150。斜斷锅4〇〇還包括設置於基座147上用於抵靠工件的護棚 159。 鑛機構155包括馬達(未圖示)、由馬達驅動的鑛片163。工作臺149 可補的设置在基座147上,使得該工作臺149可帶動鑛機構155相對於 基座M7轉動’便於進行水⑽斜向切割_整,也就是本領域技術人員 所稱的對斜切角度進行調整。卫作臺⑷的轉動改變⑹相對於護 搁159的角度’但始終保持醜>1 163與Ji作臺149相垂直。 斜斷鑛還包括可操作地驅娜二支餅153相對於第―支撐件⑸沿 切割槽150的延伸方向移動的驅動機構165。該驅動機構165包括配接於第 支撐件7和第二支射Μ上的主驅動件167。 第-實知方式與第—實施方式所不同的是主驅動件⑹第一端抱轉 22 M440868 連接於第一支撐件151和第_ ic。 動連捲篦 牙 之一上,主驅動件167第二端活 動連接於第-支撐件151和第二支撐件⑸另一個上。 在本實施增,主驅動件167第一端轉連接在第 , 主驅動件167第二端樞觀贴第二 错一仙n 工虽然’主驅動件167 = 通過其他活動連接方式連接在第二支撐件⑸上,如通過銷 和槽的配合等。 朔 >支^誠構⑹還包括鄉件169,郷件169_端触觀接於第一 和第—支拉件153上。在本實施例中,從動件169分別通過銷 軸7〇和172枢轉設置在第—梅叫第二瓣153上。 主驅鱗料鶴物恤置1 —娜151和第二支擇件 不接接觸’且第—支撐件151和第二支撐件153與主驅動件料 4動件169形成平行四連杆機構。 在本實施例中,主驅動件167設置於從動件⑽和鑛片⑹之間。如 此主驅動件167更靠近操作者方便操作。 在主駆動件167上設置有供用戶操作的操作部⑺。用戶操作操作部 1 ’因第一支擇件m和第二支擇件153與主驅動件167和從動件⑽形 成了平行四連杆機構,從而使得主驅鱗167和魏件169㈣第二支撐 件153相對於第—支撑件151平動。操作者可以根據不同規格的工件需要, 同的切位置切割工件,因此該斜斷鑛非常方便操作。當然,操作部⑺ 也可以設置在從動件169上。 '從動件I69為塑膠件’這樣可減輕斜斷鑛的整機重量,且可降低製造 成本。 23 部153具細㈣163她輯—_ 173和第二側 。較佳地,從動件丨69設置於第—侧㈣和第二側部斷間。且 相秋Γ躺163物掏目交。祕,可大大蝴二支樓件153 相對於第-支料151的穩定性。 提步娜18 ®爾169塊姆㈣,㈣加強度, 7第二娜㈣w _瓣則_,输⑽沿枢轉 177的軸線延伸—输,較佳地該厚度足以使從動件则合第一 側部⑺和第二_ 175,嫩㈣進—鳩第高㈣的穩定 性。 在從動件⑽上朝向_片163的一側設置有複數個孔179,更進一步 降低了斜斷_重量及製造成本。較佳地,孔179設置為三角形,三角形 設置可提高從動件丨69 _度和強度,進而提高第二支禮件153的穩定性。 ,進一步參照第19圖至第21圖,當操作操作部171,使主驅動件167和 從動件169分別圍繞各自的銷軸的軸線方向旋轉,從❿帶動第二支賴構 叫目對於第—支餅⑸沿著切繼15()的延射向移動到不朋工作位 置。 本實施例巾’紐鮮二支撐件⑸相對於第-支料i5i在相應的 工作位置的鎖緊’從而使斜魄可在不同的卫作位置切割不同規格的工 件6又置有與第-實施方式相同的支樓件鎖緊機構,且相應地設置有三個 預先確定的工作位置,在此不再做詳細贅述。 為使第二錢件I53在移動過財或處於鎖緊狀態的洲位置時更穩 疋,再參見第18圖,驅動機構155還進一步包括柩轉連接於第一支撐件151 24 和第二支撐'件153上的第—、去4 a 杆189 ’第一連杆1卯與主驅動件167分別設 置於第一側部173和第-伽相1<7C t 弟一側邹175兩個姆_側面上。 本較佳實施例中,第一連 現杆189 —鸲與主驅動件167通過枢軸19ι同 軸樞轉設置於第一支撐件151 上且第一連杆189另一端與主驅動件167 通過樞軸193同軸樞轉設置於镇_ 置於第一支標件153上。如此設置,方便裝配, 而且可降低製造成本。 驅動機構155還包括第& 第一連杆191 ’第二連杆191與主驅動件167設置 於第一支樓件153的同側。笛-、$社,ηι 第一連杆19i的一端與主驅動件167通過柩轴 191同健轉設1於第-支料⑸上;第二連杆⑼的另-端與主驅動件 167通過樞轴193同軸樞轉設置於第二支標件153上。本較佳實施例中,第 二連杆191設置於主驅動件167與第二支標件153之間。 螺母195與框軸19卜193配合,從而固定主驅動件167、第一連杆189 及第二連杆191。 上述的實施例僅僅是為了讓本領域技術人員理解本創作而提供的最較 佳地實施H糊似補祕战魏时補。任何本領域技術人 員所易於思及的改進均在本創作的創作構思之内。 【圖式簡單說明】 第1圖是本創作第一實施方式提供的斜斷雜的立耀圖。 第2圖是第1圖中斜斷鋸另一方向的立體圖。 第3圖是第1圖中斜斷鑛的工作臺與基座處的爆炸圖。 第4圖是第1圖中斜斷鋸的工作臺與基座處的俯視圖,此時工作臺相 25 M440868 對於基座可轉動。 第5圖是第4圖中斜斷鑛沿A-A線的剖視圖。 第6圖疋第1圖所示斜斷鑛的工作臺與基座處的俯視圖,此時工作臺 被鎖緊於基座上。 第7圖是第6圖中斜斷鋸沿B_B線的剖視圖。 第8圖是第1圖中斜斷鑛的爆炸圖,此時斜斷銀除去了基庫和護搁。 第9圖是第1圖中斜斷鑛的主視圖。 第10圖是第9圖中斜斷銀沿c_c線的剖視圖,此時第二支樓件被可 鎖緊。 第一 第11圖是第9圖中斜嶋沿c_c _剖視圖,此時第二支料柄對於 支撐件可移動。 、 第I2圖是本創作第一實施方式提供的斜斷蘇的主視圖,此時第二 件處於第—工作位置。 第I3圖是本創作第一實施方式提供的斜斷鑛的主 件處於第以作位置。 支樓 的主視圖,此時第二支撐 第14圖是本創作第-實施方式提供的斜斷錯 件處於第三工作位置。 第圓是本創作第二實施方式提供的斜斷錯的立體圖。 16圖疋第15圖中斜斷鑛另一方向的立體圖。 第17圖是第15圖中斜斷鋸的爆炸圖。 第以圖是第15圓巾斜_的第二連杆的立體圖。 第19 圖是本創作第二實财式提供的斜_的主視圖,鱗第二支樓 26 件處於第—工作位置。 第20圖疋本創作第二實施方式提供的斜斷雜的主視圖,此時第二支樓 件處於第二工作位置。 第21圖是本創作第二實施方式提供的斜斷鋸的主視圖,此時第二支撐 件處於第三工作位置。 【主要元件符號說明】 1、基座 3、工作臺 5、第一支撐件 7、第二支撐件 9、鋸機構 、第一樞轉抽 13、縱軸 U、傾斜鎖緊機構 19、基座支撐面 21、護攔 23、豎直抵靠面 25、工作臺支撐面 27、切割槽 29、馬達 31、圓鋸片 61、第一枢軸 63、操作件 65、第二柩轴 67、推進件 69、彈性件 73、座體 75、螺栓 77、收容部 79、凸緣 81、 通孔 82、 配接孔 83、 斜角定位機構 85、定位件 87、壓簧 89、凹口 123、操作把手 125、彈性件 127、蓋體 134、收容腔 139、工作位置標記 147、基座 149、 工作臺 150、 切割槽 151、 第一支撐件 153、第二支撐件 155、鋸機構 157、枢轉軸 159、護欄 163、鋸片 165、驅動機構 27 M440868 33、定護罩 91、突起部 167、主驅動件 35、活動護罩 93、驅動機構 169、從動件 37、旋轉軸線 95、主驅動件 17卜操作部 39、操作手柄 97、從動件 173、第一側部 41、搬運把手 98、99、銷轴 175、第二側部 43、活動護罩驅動裝置 101、銷軸 177、樞轉孔 45、斜切鎖緊機構 103、第一連接件 179、孔 47、夾具 105、第二連接件 189、第一連杆 49、致動機構 107、銷軸 195、螺母 50、第一夾爪 109、配合機構 200、斜斷鋸 51、第二夾爪 111、導引塊 129、131、133、收容槽 52、第一夾持面 113、導引槽 141、143、工作位置標記 53、第二夾持面 115、支撐件鎖緊機構 145、工作位置標記 55、第一甜口 117、配合件 170、172、銷軸 57、轉軸 119、鎖緊件 191、193、樞軸 59、第二鉗口 121、長孔 400、工件 28It is used to fix the relative position of the second support member 7 and the first branch member 5, thereby achieving stable call cutting. The W-branch locking mechanism II5 includes a fitting member 1Π disposed on the first branch member 5 or the second member member 7, and a locking member (10) disposed on the main driving member % to cooperate with the fitting member m. Thus, the user operates the main driving member 9S to move the second branch member 7 relative to the first branch member, and also locks the second support member 7 to the apology reading position, thereby achieving one-hand operation and non-user use. . In order to match the predetermined X position of the oblique break, the fitting 117 is at least two spaced grooves. In the actual fine towel, the g& fitting 117 is a groove provided in three sections. Of course, the number of grooves may be two, four or more depending on the needs of use. The main drive member 95 is rotatably coupled to the first support member 5 or the second support member 7 by a pin 98. The recesses are circumferentially spaced around the pin shaft 98. An elongated hole 121 that is engaged with the locking member 119 is disposed on the main driving member 95 in the longitudinal extension direction of the main driving member 95. An operating handle 123 for an operator to operate is provided on the locking member 119. Operating the handle 123 allows the operator to control the position of the locking member 119. In the different embodiment of the support locking mechanism, the 17 M440868 operating handle controls the position of the locking member U9 in a different configuration. The branch member locking mechanism 115 also includes an elastic member 125 that urges the locking member 119 to remain mated with the mating member. Since the elastic member 125 is disposed, the support locking mechanism n5 can maintain the engagement state of the locking member 119 and the fitting member 117 after the locking member 119 reaches the position where the locking member 119 is engaged with the fitting member 117, and the operator does not need to apply an additional Retention, easy to operate and comfortable. In this embodiment, the elastic member 125 is a compression spring. Of course, those skilled in the art will readily appreciate that the resilient member 125 may take other configurations, such as tension springs, torsion springs, or other resilient structures that provide a biasing bias against the locking member 119. The branch member locking mechanism 115 further includes a cover 127 fixedly disposed on the main driving member 95. The elastic member 125 is disposed between the locking member 119 and the cover 127. The cover body 127 is fixedly disposed relative to the main drive member, and the stopper elastic member 125 is disengaged from the main drive member 95. In the present embodiment, the operation handle 123 is provided with a housing chamber for accommodating the elastic member 125. The elastic member 125 is located between the cover 127 and the operating handle 123. Thus, the space between the operation handle I23 and the cover body I27 can be fully utilized, and the position of the lock handle 119 by the operation handle (2) can be controlled, and the elastic member 125 can be placed in the most compact structure. The best fit of the various functional structures is achieved. In a specific embodiment, the 'slope break mine has three predetermined working positions. Correspondingly, the second material 7 is provided with corresponding fitting members, that is, the first, second and third receiving grooves 129, 131, 133. A locking member 119 that cooperates with the receiving grooves 129, 13 133 is provided on the main driving member lu. In this embodiment, the locking member is a pin. Of course, those skilled in the art can also set the scale member 119 to other structural forms such as screws or cams. In the present embodiment, the locking member 119 is slidably disposed on the main driving member %. Preferably, the locking member is misaligned in a direction perpendicular to the miscellaneous 98, that is, the direction in which the elongated hole 121 in the main driving member % extends is perpendicular to the pin 98. ‘ Further referring to Figs. 9 and 10, in the present embodiment, the elastic member 125 is pressed f. The locking member 115 further includes a cover 127 fixedly disposed on the main driving member (1) by a bolt 129. The elastic member 125 is disposed between the locking member 119 and the cover 127. Due to the compression of the elastic member 125, the locking member 119 is always kept in close contact with the first, second, and third receiving grooves 129 131 133 in the absence of an external force. Thus, in the working position, the locking member η; in cooperation with the corresponding accommodating receiving groove, can achieve reliable locking of the second branch member 7. The main driving member 95 is provided with a long hole 121 which is engaged with the locking member m, and the long hole ΐ2ι extends in the longitudinal extension direction of the driving member in. The operating handle 123 is sleeved on one end of the main driving member 95. In this embodiment, the locking member 119 is a cylindrical pin that is disposed on the operating handle 123. The locking member ι 9 is not linearly movable with respect to the operating handle 123, but can move linearly along the elongated hole 121. The axis of the locking member (1) is perpendicular to the longitudinal extension of the main drive member 95. The operating handle 123 is provided with a receiving cavity (10) for receiving the elastic member (2). The cover body (7) is located at the operating handle (2) away from the locking member II9. The operating handle I23 has an abutment surface for abutting against the elastic member. The elastic member (2) is located between the cover U7 * the operating handle 123. In this embodiment, one end of the elastic member 125 abuts against the other end of the cover I27' against the abutting surface of the operating handle 1Z3. Under the elastic force of the elastic member 125, the operating handle 123 is away from the cover body (7), and the operating handle I23 and the movable locking member II9 are mated with the corresponding ones of the second branch members 7, so that the second supporting member 7 is reliably Locked. Referring to FIG. 11, the operation handle m is operated to move the operating handle (2) against the elastic force of the elastic member 125 toward the proximal body 127, and the operating handle 123 drives the locking member lip and the 19 M440868 first support member 7 The corresponding receiving vessel is opened so that the second cake 7 is released and the second support member 7 is movable relative to the first reading member 5. The field locking member iis> is disengaged from the corresponding receiving groove on the second supporting member 7, and when the second branch member 7 is released, the operating handle 123 is pulled to move the main driving member 95, and the first connecting member (1) is The linkage moves the second branch 7 relative to the first branch member 5. When the movement to the predetermined working position is 'released the operation handle 123, under the elastic force of the elastic member 125, the operating handle (2) drives the locking member 119 to automatically engage with the corresponding receiving groove on the second branching member 7, so that the second branch The floor 7 is securely locked. In the preferred embodiment, the oblique error 200 is provided with three working positions. Referring to Fig. 12, the locking member II9 is mated with the first receiving groove (2) to lock the second branch member 7 in the first working position. As shown in Fig. 13, the locking member 119 is mated with the second receiving groove 131 to lock the second supporting member 7 in the second working position. As shown in Fig. 14, the locking member 119 is engaged with the third receiving groove 133 to lock the second supporting member 7 in the third working position. The oblique mine 200 also includes an indicating mechanism 139 for indicating a predetermined working position. The indicating mechanism 139 includes a work position mark 141 which is placed on the first branch member 5 and an indication mark I43 which is provided on the second branch member 7. The indicator mark 143 is opposed to the work position mark 141 when the second support member 7 is moved to the corresponding working position. Of course, the work position mark can also be provided on the second support member 5, and the indicator mark matched thereto is provided on the first support member 4. In response to the predetermined number of work positions, as shown in Figs. 12 to 15, the position mark 139 includes the first, second, and third work position marks 145, 147, and 149. Of course, the position mark 139 of the top 20 M440868 is preferably marked with the specifications of the largest cutting workpiece, which is convenient for the operator to use. In addition, for more convenient observation by the operator, the working position mark 139 is disposed at a position close to the first second and first folding grooves 129, 131, 133, and correspondingly, the first, second, and third working position marks 141 143, 145 and the first, second, and third receiving slots 129, (3), corresponding to the different cutting positions for the non-slanting ore, in which case no additional indication mark can be set. When the "work position mark 139 is preferably marked with the specification of the largest cut workpiece. As shown in Figure 12, in the first working position, the maximum cutting workpiece of the oblique mine is the maximum width of 6 inches for workpieces up to 2 inches; or the maximum height of * inches for the workpiece shed. Can be cut 4 inches ^ that is, in this position, as long as the workpiece is smaller than the maximum cutting workpiece size, that is, 6 inches or less in the direction parallel to the longitudinal axis, and 2 inches or less in the direction perpendicular to the longitudinal axis, The oblique mine can be completed. As shown in Fig. 13. In the second working position, the maximum cutting specification for the slanting (10) force is two workpieces with a maximum width of 6 inches and a maximum of 2 inches. That is to say, at this position, as long as the workpiece is smaller than the maximum cutting workpiece size, the oblique mine can be completed. In addition, you can cut the "year-old workpiece" at the same time. Just make sure that the size of several workpieces is still in the largest cutting range. If the 14th circle is not in the second working position, then the silver 2_maximum cutting specification is that the workpiece with a maximum width of 8 inches can be cut up to 2 inches. That is to say, in this position, it is only smaller than the workpiece of the most cutting U workpiece, and the scale is shot to complete. The lion-like shape of the creation is suitable for the mating surface between the first domain member 5 and the second branch cake 7 not to be aligned on the longitudinal axis 1; 3 direction, that is to say the second branch member 7 is opposite to the first A support member $ direction of movement does not always have to be along the longitudinal axis 13. In this way, it is beneficial to improve the cutting ability of the oblique mine 21 M440868. Moreover, the mating surface may not be a flat surface, and may be a surface of other shapes such as a curved surface. At this time, projections of a plurality of predetermined working positions in the direction of the longitudinal axis 13 are sequentially arranged. That is to say, the 'different second cake relative material-the actual moving direction of the support member is not parallel to the longitudinal axis direction, but the actual moving direction has a component parallel to the longitudinal axis direction. Of course, the second building can also be moved forward and backward relative to the first building without sliding. As shown in Figs. 15 to 17, the second embodiment of the present invention, as in the first embodiment, includes a base M7, a table (10) for cutting a workpiece (not shown), The first support member 151 that is attached to the table 149, the second branch member 153 that is coupled to the first support member 151, and the mining mechanism 155 that is coupled to the second support member 153. The miscellaneous mechanism 155 is rotatably coupled to the second support member (5) via the rotating shaft I57. The table (10) is provided with a cutting groove 150 extending in the longitudinal direction. The slanting pot 4 〇〇 further includes a shed 159 disposed on the base 147 for abutting against the workpiece. The mining mechanism 155 includes a motor (not shown) and a rocker 163 driven by a motor. The table 149 can be replenished on the base 147 such that the table 149 can drive the ore mechanism 155 to rotate relative to the base M7 to facilitate the oblique cutting of the water (10), which is known to those skilled in the art. The bevel angle is adjusted. The rotation of the table (4) changes (6) relative to the angle apos of the yoke 159 but is always ugly > 1 163 is perpendicular to the Ji table 149. The oblique breakage also includes a drive mechanism 165 that operatively moves the two patties 153 relative to the first support (5) in the direction of extension of the cutting slot 150. The drive mechanism 165 includes a main drive member 167 that is coupled to the first support member 7 and the second temple. The first-practical manner differs from the first embodiment in that the first end of the main drive member (6) is hung 22 M440868 is connected to the first support member 151 and the _ic. On one of the movable reels, the second end of the main drive member 167 is movably coupled to the other of the first support member 151 and the second support member (5). In the present embodiment, the first end of the main driving member 167 is connected to the second end, and the second end of the main driving member 167 is pivotally attached to the second wrong one. Although the main driving member 167 is connected to the second through other active connection manners. On the support member (5), such as by the cooperation of the pin and the groove.朔 > support structure (6) also includes a home piece 169, and the end piece 169_ is in contact with the first and first pull members 153. In the present embodiment, the follower members 169 are pivotally disposed on the second lobes 153 by the pin shafts 7 and 172, respectively. The main drive scales cranes are placed 1 - Na 151 and the second support member is not in contact ' and the first support member 151 and the second support member 153 form a parallel four-bar linkage with the main drive member 4 mover 169. In the present embodiment, the main driving member 167 is disposed between the follower (10) and the pellet (6). Thus, the main drive member 167 is closer to the operator for convenient operation. An operation portion (7) for the user to operate is provided on the main flap 167. The user operates the operation portion 1' because the first support member m and the second support member 153 form a parallel four-bar linkage mechanism with the main driving member 167 and the driven member (10), thereby causing the main driving scale 167 and the Wei member 169 (four) second The support member 153 is translated relative to the first support member 151. The operator can cut the workpiece according to the different workpiece requirements and the same cutting position, so the oblique mine is very convenient to operate. Of course, the operating portion (7) can also be disposed on the follower 169. 'The follower I69 is a plastic part' can reduce the weight of the entire machine, and can reduce the manufacturing cost. 23 parts 153 with fine (four) 163 her series - _ 173 and the second side. Preferably, the follower 69 is disposed on the first side (four) and the second side. And in the autumn, I lay 163 things and watched. The secret can greatly improve the stability of the two pieces 153 relative to the first branch 151. Tibuna 18 ® 169 mb (four), (four) plus strength, 7 second na (four) w _ flap _, the input (10) extends along the axis of the pivot 177 - preferably, the thickness is sufficient to make the follower The stability of one side (7) and second _ 175, tender (four) and 鸠 high (four). A plurality of holes 179 are provided on the side of the follower (10) toward the sheet 163, which further reduces the skew weight and manufacturing cost. Preferably, the apertures 179 are arranged in a triangular shape, and the triangular arrangement increases the follower 丨 _ degrees and strength, thereby improving the stability of the second ritual 153. Further referring to FIGS. 19 to 21, when the operation portion 171 is operated, the main driving member 167 and the follower member 169 are respectively rotated about the axis direction of the respective pin shafts, and the second branch structure is driven from the cockroach. - The stick (5) moves along the extension of the cut 15 () to the non-working position. In this embodiment, the 'new fresh two support members (5) are locked with respect to the first support i5i at the corresponding working positions, so that the bevel can cut the workpieces 6 of different specifications at different guard positions and is provided with the first The supporting member locking mechanism of the same embodiment is provided with three predetermined working positions, which will not be described in detail herein. In order to make the second money piece I53 more stable when it is moved over or in a locked state, referring to FIG. 18, the driving mechanism 155 further includes a twisting connection to the first support member 151 24 and the second support. 'The first member on the member 153, the 4a rod 189', the first link 1卯 and the main driving member 167 are respectively disposed on the first side portion 173 and the first gamma phase 1 < 7C t brother side 175 175 two _ on the side. In the preferred embodiment, the first extension rod 189 is pivotally disposed on the first support member 151 coaxially with the main drive member 167 via the pivot 19 ι and the other end of the first link 189 and the main drive member 167 are pivoted. The 193 coaxial pivoting is disposed on the first standard member 153. This is easy to assemble and reduces manufacturing costs. The drive mechanism 155 further includes a & first link 191 'the second link 191 and the main drive member 167 are disposed on the same side of the first branch member 153. Flute-, $社, ηι One end of the first link 19i and the main drive member 167 are pivotally coupled to the first support (5) via the yoke 191; the other end of the second link (9) and the main drive member 167 The second pivot member 153 is disposed coaxially pivoted by the pivot 193. In the preferred embodiment, the second link 191 is disposed between the main drive member 167 and the second support member 153. The nut 195 is engaged with the frame shaft 19 193 to fix the main driving member 167, the first link 189, and the second link 191. The above-described embodiments are merely for the purpose of letting those skilled in the art understand the present invention to provide the best implementation of the paste-like secret warfare. Any improvements that are easily conceived by those skilled in the art are within the inventive concept of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a slanting break provided by the first embodiment of the present invention. Fig. 2 is a perspective view showing the other direction of the oblique saw in Fig. 1. Figure 3 is an exploded view of the workbench and base at the oblique mine in Figure 1. Figure 4 is a top view of the table and base of the miter saw in Figure 1, where the table phase 25 M440868 is rotatable for the base. Fig. 5 is a cross-sectional view taken along line A-A of the oblique broken mine in Fig. 4. Fig. 6 is a top view of the workbench and the base of the obliquely broken mine shown in Fig. 1, at which time the table is locked to the base. Fig. 7 is a cross-sectional view of the miter saw along the line B_B in Fig. 6. Figure 8 is an exploded view of the obliquely broken ore in Figure 1, where the oblique silver removes the base and the shelter. Figure 9 is a front elevational view of the oblique cut mine in Figure 1. Fig. 10 is a cross-sectional view of the oblique silver along the c_c line in Fig. 9, in which the second branch member is lockable. The first eleventh is a cross-sectional view of the cross-hatching along c_c_ in Fig. 9, in which the second shank is movable for the support. Figure I2 is a front view of the oblique sling provided by the first embodiment of the present invention, in which case the second member is in the first working position. Fig. 13 is a view showing the main part of the oblique broken mine provided by the first embodiment of the present invention in the first position. The main view of the branch, at this time the second support, Fig. 14, is the oblique working piece provided in the first embodiment of the present invention in the third working position. The first circle is a perspective view of the oblique error provided by the second embodiment of the present creation. Figure 16 is a perspective view of the other direction of the oblique mine in Figure 15. Figure 17 is an exploded view of the miter saw in Figure 15. The first figure is a perspective view of the second link of the 15th scarf oblique _. The 19th picture is the main view of the oblique _ provided by the second real wealth of the creation, and the 26th piece of the second building is in the first working position. Fig. 20 is a front elevational view of the second embodiment of the present invention, in which the second branch is in the second working position. Figure 21 is a front elevational view of the miter saw of the second embodiment of the present invention, in which the second support member is in the third working position. [Description of main component symbols] 1. Base 3, table 5, first support member 7, second support member 9, saw mechanism, first pivoting pumping 13, vertical axis U, tilt locking mechanism 19, base Support surface 21, barrier 23, vertical abutment surface 25, table support surface 27, cutting groove 29, motor 31, circular saw blade 61, first pivot 63, operating member 65, second yoke 67, pusher 69 The elastic member 73, the seat body 75, the bolt 77, the receiving portion 79, the flange 81, the through hole 82, the matching hole 83, the bevel positioning mechanism 85, the positioning member 87, the compression spring 89, the notch 123, and the operating handle 125 The elastic member 127, the cover 134, the receiving cavity 139, the working position mark 147, the base 149, the table 150, the cutting groove 151, the first support member 153, the second support member 155, the saw mechanism 157, the pivot shaft 159, Guardrail 163, saw blade 165, drive mechanism 27 M440868 33, fixed shield 91, protrusion 167, main drive member 35, movable shield 93, drive mechanism 169, follower 37, axis of rotation 95, main drive member 17 Operating portion 39, operating handle 97, follower 173, first side portion 41, carrying handle Hand 98, 99, pin 175, second side portion 43, movable shield driving device 101, pin 177, pivot hole 45, bevel locking mechanism 103, first connecting member 179, hole 47, jig 105, a second connecting member 189, a first connecting rod 49, an actuating mechanism 107, a pin 195, a nut 50, a first clamping jaw 109, a mating mechanism 200, a miter saw 51, a second jaw 111, a guiding block 129, 131, 133, receiving groove 52, first clamping surface 113, guiding groove 141, 143, working position mark 53, second clamping surface 115, support locking mechanism 145, working position mark 55, first sweet mouth 117, fittings 170, 172, pin 57, rotating shaft 119, locking members 191, 193, pivot 59, second jaw 121, long hole 400, workpiece 28